Sensor response of superhydrophobic quartz crystal resonators

2008 IEEE International Frequency Control Symposium, FCS

Volumn , Issue , 2008, Pages 698-704

  McHale, G ^a   Roach, P ^a   Evans, C R ^a   Shirtcliffe, N J ^a   Elliott, S J ^a   Newton, M I ^a  

^a NOTTINGHAM TRENT UNIVERSITY   (United Kingdom)

Author keywords

[No Author keywords available]

Indexed keywords

ABS RESINS; ACOUSTIC IMPEDANCE; ACOUSTIC VARIABLES MEASUREMENT; ACOUSTICS; ASPECT RATIO; BOUNDARY CONDITIONS; CRYSTAL RESONATORS; CRYSTALLOGRAPHY; EXTRACTION; GLYCEROL; HYDROPHOBICITY; INCOMPRESSIBLE FLOW; LIQUID CRYSTAL POLYMERS; NEWTONIAN LIQUIDS; OXIDE MINERALS; OXIDES; PHOTORESISTS; PIEZOELECTRIC DEVICES; POWDERS; QUARTZ; QUARTZ CRYSTAL MICROBALANCES; REFLECTION; SENSORS; SILICA; SOLVENT EXTRACTION; SURFACE CHEMISTRY; SURFACE PROPERTIES; SURFACE STRUCTURE; TITANIUM; TITANIUM DIOXIDE;

ACOUSTIC REFLECTIONS; ACOUSTIC RESPONSES; AIR LAYERS; DENSITY PRODUCTS; FIRST ORDERS; GORDON EQUATIONS; HIGH ASPECT RATIOS; IMPEDANCE SPECTRUMS; LIQUID PHASE; MASS DEPOSITIONS; POLYMERS.; QUARTZ CRYSTAL RESONATORS; QUARTZ CRYSTALS; SAUERBREY EQUATIONS; SENSOR RESPONSES; SHEAR MODULUS; SILICON DIOXIDES; SLIP LENGTHS; SMOOTH SURFACES; SUPER HYDROPHOBICITIES; SUPERHYDROPHOBIC; SUPERHYDROPHOBIC SURFACES; SURFACE FEATURES; WAVE PENETRATIONS;

FREQUENCY RESPONSE;

EID: 55649120004     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1109/FREQ.2008.4623089     Document Type: Conference Paper

References (18)

1. D. Quéré, A. Lafuma and J. Bico, "Slippy and sticky microtextured solids," Nanotechnology, vol 14, pp. 1109-1112, 2003.
2. N. J. Shirtclifie, G. McHale, M. I. Newton, C. C. Perry and P. Roach, "Porous materials show superhydrophobic to superhydrophilic switching," Chem. Comm., issue 25, pp. 3135-3137, 2005.
3. N. J. Shirtclifie, G. McHale, M. I. Newton, C. C. Perry and P. Roach, "Superhydrophobic to superhydrophilic transitions of sol-gel films for temperature, alcohol or surfactant measurement," Maters. Chem. Phys., vol 103, pp 112-117, 2007.
4. M. Thompson, G. McHale and M. I. Newton, "Acoustic biosensor for detecting surface interactions, such as surface binding events, comprises super-nonwetting or super-wetting surface," Canadian patent application CA2451413 published 28 May 2005.
5. C. R. Evans, G. McHale, N. J. Shirtcliffe and M. I. Newton, "The effect of SU-8 patterned surfaces on the response of the quartz crystal microbalance," Sens. Act., vol A123-24, pp. 73-76, 2005.
6. P. Roach, G. McHale, C. R. Evans, N. J. Shirtcliffe and M. I. Newton, "Decoupling of the liquid response of a superhydrophobic quartz crystal microbalance," Langmuir, vol 23, pp. 9823-9830, 2007.
7. P. Roach, C. R. Evans, N. J. Shirtclifie, G. McHale and M. I. Newton, "Response of quartz crystal resonators possessing a superhydrophobic surface," Proc. IEEE IFCS., vols 14, pp. 587-590, 2007.
8. M. Fujita, H. Muramatsu and M. Fujihira, "Energy dissipation at ultrasonically oscillating superhydrophobic surface in various liquids," Jap. J. Appl. Phys., vol 44, pp. 6726-6730, 2005.
9. S. J. Kwoun, R. M. Lee, R. A. Cairncross, P. Shah and C. J. Brinker, "Characterization of superhydrophobic materials using multiresonance acoustic shear wave sensors," IEEE Trans. Ultrason. Ferroel. Freq. Control., vol 53, pp. 1400-1403, 2006.
10. D. S. Ballantine, et al., Acoustic Wave Sensors, London: Academic Press, 1996.
11. G. McHale, R. Lücklum, M. I. Newton and J. A. Cowen, "Influence of viscoelasticity and interfacial slip on acoustic wave sensors," vol. 88, pp. 7304-7312, 2000.
12. J. S. Ellis, G. McHale, G. L. Hayward and M. Thompson, "Contact angle-based predictive model for slip at the solid-liquid interface of a transverse-shear mode acoustic wave device," J. Appl. Phys., vol 94, pp. 6201-6207, 2003.
13. G. McHale and M. I. Newton, "Surface roughness and interfacial slip boundary condition for quartz crystal microbalances," J. Appl. Phys., vol 95, pp. 373-380, 2004.
14. W. C. Duncan-Hewitt and M. Thompson, "4-layer theory for the acoustic shear-wave sensor in liquids incorporating interfacial slip and liquid structure," Anal. Chem., vol 64, pp. 94-105, 1992.
15. J. S. Ellis, G. McHale, G. L. Hayward and M. Thompson, "Contact angle-based predictive model for slip at the solid-liquid interface of a transverse-shear mode acoustic wave device," J. Appl. Phys., vol 94, pp. 6201-6207, 2003.
16. S. J. Martin, G. C. Frye, A. J. Ricco and S. D. Senturia, "Effect of surface-roughness on the response of thickness-shear mode resonators in liquids," Anal. Chem., vol 65, pp. 2910-2922, 1993.
17. S. J. Martin, "Interactions of acoustic waves with thin films and interfaces - Closing remarks," Farad. Discuss., vol 107, pp. 463-476, 1997.
18. N. J. Shirtcliffe, S. Aqil, C. Evans, G. McHale, M. I. Newton, C. C. Perry and P. Roach , "The use off high aspect ratio photoresist (SU-8) for super-hydrophobic pattern prototyping," J. Micromech. Microeng., vol. 14, pp. 1384-1389, 2004.